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emg response  (Digitimer North America LLC)


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    Digitimer North America LLC emg response
    Mechanical and thermal hyperalgesia following adult reincision is sex-dependently influenced by minocycline at the time of neonatal incision. A–D , Changes in behavioral thresholds following incision are normalized as percentage change from baseline (adult preincision). Data points are mean ± SEM. n = 8 or 9 animals per group analyzed by two-way repeated-measures ANOVA with Bonferroni post hoc comparisons. Mechanical withdrawal threshold (MWT) in male ( A ) and female ( B ) rats and thermal withdrawal latency (TWL) in male ( C ) and female ( D ) rats are plotted against time points to 21 d after incision. Hyperalgesia is enhanced by prior incision (nsIN-IN vs nsIN: *** p < 0.001; ** p < 0.01; * p < 0.05) in both males and females. A , In male rats, neonatal minocycline treatment significantly attenuated the enhanced mechanical hyperalgesia from 7 to 21 d (nmIN-IN vs nsIN-IN: §§ p < 0.01; § p > 0.05). B , In female rats, mechanical hyperalgesia following reincision was enhanced 7–21 d following incision despite neonatal minocycline (nm-IN vs nmIN-IN: ## p < 0.01; # p < 0.05). Differences in thermal latency in males ( C ) and females ( D ) were less marked but followed the same overall pattern with neonatal minocycline attenuating reincision hyperalgesia in males but not females. E , F , Summary figures of mechanical ( E ) and thermal ( F ) hyperalgesia highlight sex-dependent differences following neonatal incision with minocycline (nmIN-IN). Within the ns-IN and nsIN-IN groups, data did not differ between males and females and are combined to minimize overlap in the figure. The impact of prior neonatal incision is highlighted by the clear separation in both the degree and duration of hyperalgesia (ns-IN vs nsIN-IN). In males, minocycline at the time of neonatal incision prevents adult reincision hyperalgesia (♂ nmIN-IN differs from nsIN-IN), and this group more closely approximates animals with no prior neonatal injury (ns-IN). In females, minocycline at the time of neonatal incision (♀ nmIN-IN) has no effect; enhanced adult reincision hyperalgesia persists, and this group approximates the nsIN-IN group. G , H , Behavioral data are expressed as the hyperalgesic index (area over the curve to 21 d after incision) of mechanical threshold ( G ) or thermal latency ( H ). Reincision hyperalgesia is apparent in males and females (nsIN vs nsIN-IN: *** p < 0.001; ** p < 0.01) and is reduced by neonatal minocycline in males only (nsIN-IN vs nmIN-IN: §§ p < 0.01). In females, enhanced reincision hyperalgesia persists despite minocycline (nmIN vs nmIN-IN: ## p < 0.01). Data points are individual animals ( n = 8 or 9 per group). Error bars indicate mean ± SD analyzed by two-way ANOVA with Bonferroni post hoc comparisons. I , Reflex sensitivity 24 h following adult incision quantified as the area under the <t>stimulus</t> <t>(hindpaw</t> mechanical von Frey hair) versus response curve (electromyography recording biceps femoris; <t>EMG</t> area under curve reflex response) demonstrates reincision hyperalgesia in males and females (nsIN-IN>ns-IN: ** p < 0.01). Neonatal minocycline (nmIN-IN) reduced the reincision response in males only (nmIN-IN < nsIN-IN: § p < 0.05), but enhanced hyperalgesia persisted in females (nmIN-IN > nsIN: ** p < 0.001). Data points are individual animals ( n = 9 or 10 per group). Error bars indicate mean ± SD analyzed by two-way ANOVA with sex and group as variables and Bonferroni post hoc comparisons. Groups include the following: ns-IN, nm-IN, nsIN-IN, and nmIN-IN.
    Emg Response, supplied by Digitimer North America LLC, used in various techniques. Bioz Stars score: 97/100, based on 2292 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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    Images

    1) Product Images from "Priming of Adult Incision Response by Early-Life Injury: Neonatal Microglial Inhibition Has Persistent But Sexually Dimorphic Effects in Adult Rats"

    Article Title: Priming of Adult Incision Response by Early-Life Injury: Neonatal Microglial Inhibition Has Persistent But Sexually Dimorphic Effects in Adult Rats

    Journal: The Journal of Neuroscience

    doi: 10.1523/JNEUROSCI.1786-18.2019

    Mechanical and thermal hyperalgesia following adult reincision is sex-dependently influenced by minocycline at the time of neonatal incision. A–D , Changes in behavioral thresholds following incision are normalized as percentage change from baseline (adult preincision). Data points are mean ± SEM. n = 8 or 9 animals per group analyzed by two-way repeated-measures ANOVA with Bonferroni post hoc comparisons. Mechanical withdrawal threshold (MWT) in male ( A ) and female ( B ) rats and thermal withdrawal latency (TWL) in male ( C ) and female ( D ) rats are plotted against time points to 21 d after incision. Hyperalgesia is enhanced by prior incision (nsIN-IN vs nsIN: *** p < 0.001; ** p < 0.01; * p < 0.05) in both males and females. A , In male rats, neonatal minocycline treatment significantly attenuated the enhanced mechanical hyperalgesia from 7 to 21 d (nmIN-IN vs nsIN-IN: §§ p < 0.01; § p > 0.05). B , In female rats, mechanical hyperalgesia following reincision was enhanced 7–21 d following incision despite neonatal minocycline (nm-IN vs nmIN-IN: ## p < 0.01; # p < 0.05). Differences in thermal latency in males ( C ) and females ( D ) were less marked but followed the same overall pattern with neonatal minocycline attenuating reincision hyperalgesia in males but not females. E , F , Summary figures of mechanical ( E ) and thermal ( F ) hyperalgesia highlight sex-dependent differences following neonatal incision with minocycline (nmIN-IN). Within the ns-IN and nsIN-IN groups, data did not differ between males and females and are combined to minimize overlap in the figure. The impact of prior neonatal incision is highlighted by the clear separation in both the degree and duration of hyperalgesia (ns-IN vs nsIN-IN). In males, minocycline at the time of neonatal incision prevents adult reincision hyperalgesia (♂ nmIN-IN differs from nsIN-IN), and this group more closely approximates animals with no prior neonatal injury (ns-IN). In females, minocycline at the time of neonatal incision (♀ nmIN-IN) has no effect; enhanced adult reincision hyperalgesia persists, and this group approximates the nsIN-IN group. G , H , Behavioral data are expressed as the hyperalgesic index (area over the curve to 21 d after incision) of mechanical threshold ( G ) or thermal latency ( H ). Reincision hyperalgesia is apparent in males and females (nsIN vs nsIN-IN: *** p < 0.001; ** p < 0.01) and is reduced by neonatal minocycline in males only (nsIN-IN vs nmIN-IN: §§ p < 0.01). In females, enhanced reincision hyperalgesia persists despite minocycline (nmIN vs nmIN-IN: ## p < 0.01). Data points are individual animals ( n = 8 or 9 per group). Error bars indicate mean ± SD analyzed by two-way ANOVA with Bonferroni post hoc comparisons. I , Reflex sensitivity 24 h following adult incision quantified as the area under the stimulus (hindpaw mechanical von Frey hair) versus response curve (electromyography recording biceps femoris; EMG area under curve reflex response) demonstrates reincision hyperalgesia in males and females (nsIN-IN>ns-IN: ** p < 0.01). Neonatal minocycline (nmIN-IN) reduced the reincision response in males only (nmIN-IN < nsIN-IN: § p < 0.05), but enhanced hyperalgesia persisted in females (nmIN-IN > nsIN: ** p < 0.001). Data points are individual animals ( n = 9 or 10 per group). Error bars indicate mean ± SD analyzed by two-way ANOVA with sex and group as variables and Bonferroni post hoc comparisons. Groups include the following: ns-IN, nm-IN, nsIN-IN, and nmIN-IN.
    Figure Legend Snippet: Mechanical and thermal hyperalgesia following adult reincision is sex-dependently influenced by minocycline at the time of neonatal incision. A–D , Changes in behavioral thresholds following incision are normalized as percentage change from baseline (adult preincision). Data points are mean ± SEM. n = 8 or 9 animals per group analyzed by two-way repeated-measures ANOVA with Bonferroni post hoc comparisons. Mechanical withdrawal threshold (MWT) in male ( A ) and female ( B ) rats and thermal withdrawal latency (TWL) in male ( C ) and female ( D ) rats are plotted against time points to 21 d after incision. Hyperalgesia is enhanced by prior incision (nsIN-IN vs nsIN: *** p < 0.001; ** p < 0.01; * p < 0.05) in both males and females. A , In male rats, neonatal minocycline treatment significantly attenuated the enhanced mechanical hyperalgesia from 7 to 21 d (nmIN-IN vs nsIN-IN: §§ p < 0.01; § p > 0.05). B , In female rats, mechanical hyperalgesia following reincision was enhanced 7–21 d following incision despite neonatal minocycline (nm-IN vs nmIN-IN: ## p < 0.01; # p < 0.05). Differences in thermal latency in males ( C ) and females ( D ) were less marked but followed the same overall pattern with neonatal minocycline attenuating reincision hyperalgesia in males but not females. E , F , Summary figures of mechanical ( E ) and thermal ( F ) hyperalgesia highlight sex-dependent differences following neonatal incision with minocycline (nmIN-IN). Within the ns-IN and nsIN-IN groups, data did not differ between males and females and are combined to minimize overlap in the figure. The impact of prior neonatal incision is highlighted by the clear separation in both the degree and duration of hyperalgesia (ns-IN vs nsIN-IN). In males, minocycline at the time of neonatal incision prevents adult reincision hyperalgesia (♂ nmIN-IN differs from nsIN-IN), and this group more closely approximates animals with no prior neonatal injury (ns-IN). In females, minocycline at the time of neonatal incision (♀ nmIN-IN) has no effect; enhanced adult reincision hyperalgesia persists, and this group approximates the nsIN-IN group. G , H , Behavioral data are expressed as the hyperalgesic index (area over the curve to 21 d after incision) of mechanical threshold ( G ) or thermal latency ( H ). Reincision hyperalgesia is apparent in males and females (nsIN vs nsIN-IN: *** p < 0.001; ** p < 0.01) and is reduced by neonatal minocycline in males only (nsIN-IN vs nmIN-IN: §§ p < 0.01). In females, enhanced reincision hyperalgesia persists despite minocycline (nmIN vs nmIN-IN: ## p < 0.01). Data points are individual animals ( n = 8 or 9 per group). Error bars indicate mean ± SD analyzed by two-way ANOVA with Bonferroni post hoc comparisons. I , Reflex sensitivity 24 h following adult incision quantified as the area under the stimulus (hindpaw mechanical von Frey hair) versus response curve (electromyography recording biceps femoris; EMG area under curve reflex response) demonstrates reincision hyperalgesia in males and females (nsIN-IN>ns-IN: ** p < 0.01). Neonatal minocycline (nmIN-IN) reduced the reincision response in males only (nmIN-IN < nsIN-IN: § p < 0.05), but enhanced hyperalgesia persisted in females (nmIN-IN > nsIN: ** p < 0.001). Data points are individual animals ( n = 9 or 10 per group). Error bars indicate mean ± SD analyzed by two-way ANOVA with sex and group as variables and Bonferroni post hoc comparisons. Groups include the following: ns-IN, nm-IN, nsIN-IN, and nmIN-IN.

    Techniques Used:

    Acute neonatal effects of incision and/or minocycline. A , B , Mechanical withdrawal threshold (MWT) is reduced 4 h following neonatal saline and incision (nsIN) in male ( A ) and female ( B ) rat pups compared with nonincised saline (ns) and minocycline (nm) controls. Minocycline at the time of neonatal incision (nmIN) has no effect. Data are mean ± SEM ( n = 6 ns animals, n = 10 all other groups). ns vs nsIN: * p < 0.05; ns vs nmIN: ## p < 0.01; # p < 0.05; two-way repeated-measures ANOVA with Bonferroni post hoc comparisons. C , Twenty-four hours following P3 interventions, reflex sensitivity was quantified as the area under the curve of the stimulus (von Frey hair to hindpaw) versus biceps femoris EMG response. Data points represent individual animals ( n = 7–9 per group). Error bars indicate mean ± SD. Male nmIN > ns, p = 0.043; nmIN> nm, p = 0.035; female nsIN > ns, p = 0.007; nmIN> ns, p = 0.008; two-way ANOVA with Bonferroni post hoc comparisons. D , Representative low- and high-power images of the dorsal horn of male and female rats 3 d following incision with perioperative saline (nsIN) or minocycline (nmIN). Scale bar, 210 μm. E , Iba1-positive cells within a fixed ROI in the medial superficial dorsal horn were significantly increased following incision in males (ns vs nsIN, p = 0.007), and females given saline (ns vs nsIN, p = 0.011) or minocycline (ns vs nmIN, p = 0.005). Data points represent average of at least 6 spinal L4/5 sections for each individual animal ( n = 4 ns or nm; n = 10 nsIN or nmIN). F , FJ-C-positive cell counts in the ipsilateral (left) lumbar cord (L4,5 segments) were increased following incision in males (ns vs nsIN, p = 0.008; ns vs nmIN, p = 0.002; nm vs nmIN, p = 0.024) and females (nm vs nsIN, p = 0.019). Data points represent sum of FJ-C-positive counts from 6 L4/5 spinal cord sections per animal ( n = 8 animals per group). E , F , Error bars indicate SD. * p < 0.05, two-way ANOVA with Bonferroni post hoc comparisons. Groups are as follows ns, nm, nsIN, and nmIN.
    Figure Legend Snippet: Acute neonatal effects of incision and/or minocycline. A , B , Mechanical withdrawal threshold (MWT) is reduced 4 h following neonatal saline and incision (nsIN) in male ( A ) and female ( B ) rat pups compared with nonincised saline (ns) and minocycline (nm) controls. Minocycline at the time of neonatal incision (nmIN) has no effect. Data are mean ± SEM ( n = 6 ns animals, n = 10 all other groups). ns vs nsIN: * p < 0.05; ns vs nmIN: ## p < 0.01; # p < 0.05; two-way repeated-measures ANOVA with Bonferroni post hoc comparisons. C , Twenty-four hours following P3 interventions, reflex sensitivity was quantified as the area under the curve of the stimulus (von Frey hair to hindpaw) versus biceps femoris EMG response. Data points represent individual animals ( n = 7–9 per group). Error bars indicate mean ± SD. Male nmIN > ns, p = 0.043; nmIN> nm, p = 0.035; female nsIN > ns, p = 0.007; nmIN> ns, p = 0.008; two-way ANOVA with Bonferroni post hoc comparisons. D , Representative low- and high-power images of the dorsal horn of male and female rats 3 d following incision with perioperative saline (nsIN) or minocycline (nmIN). Scale bar, 210 μm. E , Iba1-positive cells within a fixed ROI in the medial superficial dorsal horn were significantly increased following incision in males (ns vs nsIN, p = 0.007), and females given saline (ns vs nsIN, p = 0.011) or minocycline (ns vs nmIN, p = 0.005). Data points represent average of at least 6 spinal L4/5 sections for each individual animal ( n = 4 ns or nm; n = 10 nsIN or nmIN). F , FJ-C-positive cell counts in the ipsilateral (left) lumbar cord (L4,5 segments) were increased following incision in males (ns vs nsIN, p = 0.008; ns vs nmIN, p = 0.002; nm vs nmIN, p = 0.024) and females (nm vs nsIN, p = 0.019). Data points represent sum of FJ-C-positive counts from 6 L4/5 spinal cord sections per animal ( n = 8 animals per group). E , F , Error bars indicate SD. * p < 0.05, two-way ANOVA with Bonferroni post hoc comparisons. Groups are as follows ns, nm, nsIN, and nmIN.

    Techniques Used: Saline



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    BIOPAC emg response
    Mechanical and thermal hyperalgesia following adult reincision is sex-dependently influenced by minocycline at the time of neonatal incision. A–D , Changes in behavioral thresholds following incision are normalized as percentage change from baseline (adult preincision). Data points are mean ± SEM. n = 8 or 9 animals per group analyzed by two-way repeated-measures ANOVA with Bonferroni post hoc comparisons. Mechanical withdrawal threshold (MWT) in male ( A ) and female ( B ) rats and thermal withdrawal latency (TWL) in male ( C ) and female ( D ) rats are plotted against time points to 21 d after incision. Hyperalgesia is enhanced by prior incision (nsIN-IN vs nsIN: *** p < 0.001; ** p < 0.01; * p < 0.05) in both males and females. A , In male rats, neonatal minocycline treatment significantly attenuated the enhanced mechanical hyperalgesia from 7 to 21 d (nmIN-IN vs nsIN-IN: §§ p < 0.01; § p > 0.05). B , In female rats, mechanical hyperalgesia following reincision was enhanced 7–21 d following incision despite neonatal minocycline (nm-IN vs nmIN-IN: ## p < 0.01; # p < 0.05). Differences in thermal latency in males ( C ) and females ( D ) were less marked but followed the same overall pattern with neonatal minocycline attenuating reincision hyperalgesia in males but not females. E , F , Summary figures of mechanical ( E ) and thermal ( F ) hyperalgesia highlight sex-dependent differences following neonatal incision with minocycline (nmIN-IN). Within the ns-IN and nsIN-IN groups, data did not differ between males and females and are combined to minimize overlap in the figure. The impact of prior neonatal incision is highlighted by the clear separation in both the degree and duration of hyperalgesia (ns-IN vs nsIN-IN). In males, minocycline at the time of neonatal incision prevents adult reincision hyperalgesia (♂ nmIN-IN differs from nsIN-IN), and this group more closely approximates animals with no prior neonatal injury (ns-IN). In females, minocycline at the time of neonatal incision (♀ nmIN-IN) has no effect; enhanced adult reincision hyperalgesia persists, and this group approximates the nsIN-IN group. G , H , Behavioral data are expressed as the hyperalgesic index (area over the curve to 21 d after incision) of mechanical threshold ( G ) or thermal latency ( H ). Reincision hyperalgesia is apparent in males and females (nsIN vs nsIN-IN: *** p < 0.001; ** p < 0.01) and is reduced by neonatal minocycline in males only (nsIN-IN vs nmIN-IN: §§ p < 0.01). In females, enhanced reincision hyperalgesia persists despite minocycline (nmIN vs nmIN-IN: ## p < 0.01). Data points are individual animals ( n = 8 or 9 per group). Error bars indicate mean ± SD analyzed by two-way ANOVA with Bonferroni post hoc comparisons. I , Reflex sensitivity 24 h following adult incision quantified as the area under the <t>stimulus</t> <t>(hindpaw</t> mechanical von Frey hair) versus response curve (electromyography recording biceps femoris; <t>EMG</t> area under curve reflex response) demonstrates reincision hyperalgesia in males and females (nsIN-IN>ns-IN: ** p < 0.01). Neonatal minocycline (nmIN-IN) reduced the reincision response in males only (nmIN-IN < nsIN-IN: § p < 0.05), but enhanced hyperalgesia persisted in females (nmIN-IN > nsIN: ** p < 0.001). Data points are individual animals ( n = 9 or 10 per group). Error bars indicate mean ± SD analyzed by two-way ANOVA with sex and group as variables and Bonferroni post hoc comparisons. Groups include the following: ns-IN, nm-IN, nsIN-IN, and nmIN-IN.
    Emg Response, supplied by BIOPAC, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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    emg startle response monitoring system  (San Diego Instruments)
    90
    San Diego Instruments emg startle response monitoring system
    Mechanical and thermal hyperalgesia following adult reincision is sex-dependently influenced by minocycline at the time of neonatal incision. A–D , Changes in behavioral thresholds following incision are normalized as percentage change from baseline (adult preincision). Data points are mean ± SEM. n = 8 or 9 animals per group analyzed by two-way repeated-measures ANOVA with Bonferroni post hoc comparisons. Mechanical withdrawal threshold (MWT) in male ( A ) and female ( B ) rats and thermal withdrawal latency (TWL) in male ( C ) and female ( D ) rats are plotted against time points to 21 d after incision. Hyperalgesia is enhanced by prior incision (nsIN-IN vs nsIN: *** p < 0.001; ** p < 0.01; * p < 0.05) in both males and females. A , In male rats, neonatal minocycline treatment significantly attenuated the enhanced mechanical hyperalgesia from 7 to 21 d (nmIN-IN vs nsIN-IN: §§ p < 0.01; § p > 0.05). B , In female rats, mechanical hyperalgesia following reincision was enhanced 7–21 d following incision despite neonatal minocycline (nm-IN vs nmIN-IN: ## p < 0.01; # p < 0.05). Differences in thermal latency in males ( C ) and females ( D ) were less marked but followed the same overall pattern with neonatal minocycline attenuating reincision hyperalgesia in males but not females. E , F , Summary figures of mechanical ( E ) and thermal ( F ) hyperalgesia highlight sex-dependent differences following neonatal incision with minocycline (nmIN-IN). Within the ns-IN and nsIN-IN groups, data did not differ between males and females and are combined to minimize overlap in the figure. The impact of prior neonatal incision is highlighted by the clear separation in both the degree and duration of hyperalgesia (ns-IN vs nsIN-IN). In males, minocycline at the time of neonatal incision prevents adult reincision hyperalgesia (♂ nmIN-IN differs from nsIN-IN), and this group more closely approximates animals with no prior neonatal injury (ns-IN). In females, minocycline at the time of neonatal incision (♀ nmIN-IN) has no effect; enhanced adult reincision hyperalgesia persists, and this group approximates the nsIN-IN group. G , H , Behavioral data are expressed as the hyperalgesic index (area over the curve to 21 d after incision) of mechanical threshold ( G ) or thermal latency ( H ). Reincision hyperalgesia is apparent in males and females (nsIN vs nsIN-IN: *** p < 0.001; ** p < 0.01) and is reduced by neonatal minocycline in males only (nsIN-IN vs nmIN-IN: §§ p < 0.01). In females, enhanced reincision hyperalgesia persists despite minocycline (nmIN vs nmIN-IN: ## p < 0.01). Data points are individual animals ( n = 8 or 9 per group). Error bars indicate mean ± SD analyzed by two-way ANOVA with Bonferroni post hoc comparisons. I , Reflex sensitivity 24 h following adult incision quantified as the area under the <t>stimulus</t> <t>(hindpaw</t> mechanical von Frey hair) versus response curve (electromyography recording biceps femoris; <t>EMG</t> area under curve reflex response) demonstrates reincision hyperalgesia in males and females (nsIN-IN>ns-IN: ** p < 0.01). Neonatal minocycline (nmIN-IN) reduced the reincision response in males only (nmIN-IN < nsIN-IN: § p < 0.05), but enhanced hyperalgesia persisted in females (nmIN-IN > nsIN: ** p < 0.001). Data points are individual animals ( n = 9 or 10 per group). Error bars indicate mean ± SD analyzed by two-way ANOVA with sex and group as variables and Bonferroni post hoc comparisons. Groups include the following: ns-IN, nm-IN, nsIN-IN, and nmIN-IN.
    Emg Startle Response Monitoring System, supplied by San Diego Instruments, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/emg startle response monitoring system/product/San Diego Instruments
    Average 90 stars, based on 1 article reviews
    emg startle response monitoring system - by Bioz Stars, 2026-06
    90/100 stars
    		  Buy from Supplier
    emg startle response system  (San Diego Instruments)
    90
    San Diego Instruments emg startle response system
    Mechanical and thermal hyperalgesia following adult reincision is sex-dependently influenced by minocycline at the time of neonatal incision. A–D , Changes in behavioral thresholds following incision are normalized as percentage change from baseline (adult preincision). Data points are mean ± SEM. n = 8 or 9 animals per group analyzed by two-way repeated-measures ANOVA with Bonferroni post hoc comparisons. Mechanical withdrawal threshold (MWT) in male ( A ) and female ( B ) rats and thermal withdrawal latency (TWL) in male ( C ) and female ( D ) rats are plotted against time points to 21 d after incision. Hyperalgesia is enhanced by prior incision (nsIN-IN vs nsIN: *** p < 0.001; ** p < 0.01; * p < 0.05) in both males and females. A , In male rats, neonatal minocycline treatment significantly attenuated the enhanced mechanical hyperalgesia from 7 to 21 d (nmIN-IN vs nsIN-IN: §§ p < 0.01; § p > 0.05). B , In female rats, mechanical hyperalgesia following reincision was enhanced 7–21 d following incision despite neonatal minocycline (nm-IN vs nmIN-IN: ## p < 0.01; # p < 0.05). Differences in thermal latency in males ( C ) and females ( D ) were less marked but followed the same overall pattern with neonatal minocycline attenuating reincision hyperalgesia in males but not females. E , F , Summary figures of mechanical ( E ) and thermal ( F ) hyperalgesia highlight sex-dependent differences following neonatal incision with minocycline (nmIN-IN). Within the ns-IN and nsIN-IN groups, data did not differ between males and females and are combined to minimize overlap in the figure. The impact of prior neonatal incision is highlighted by the clear separation in both the degree and duration of hyperalgesia (ns-IN vs nsIN-IN). In males, minocycline at the time of neonatal incision prevents adult reincision hyperalgesia (♂ nmIN-IN differs from nsIN-IN), and this group more closely approximates animals with no prior neonatal injury (ns-IN). In females, minocycline at the time of neonatal incision (♀ nmIN-IN) has no effect; enhanced adult reincision hyperalgesia persists, and this group approximates the nsIN-IN group. G , H , Behavioral data are expressed as the hyperalgesic index (area over the curve to 21 d after incision) of mechanical threshold ( G ) or thermal latency ( H ). Reincision hyperalgesia is apparent in males and females (nsIN vs nsIN-IN: *** p < 0.001; ** p < 0.01) and is reduced by neonatal minocycline in males only (nsIN-IN vs nmIN-IN: §§ p < 0.01). In females, enhanced reincision hyperalgesia persists despite minocycline (nmIN vs nmIN-IN: ## p < 0.01). Data points are individual animals ( n = 8 or 9 per group). Error bars indicate mean ± SD analyzed by two-way ANOVA with Bonferroni post hoc comparisons. I , Reflex sensitivity 24 h following adult incision quantified as the area under the <t>stimulus</t> <t>(hindpaw</t> mechanical von Frey hair) versus response curve (electromyography recording biceps femoris; <t>EMG</t> area under curve reflex response) demonstrates reincision hyperalgesia in males and females (nsIN-IN>ns-IN: ** p < 0.01). Neonatal minocycline (nmIN-IN) reduced the reincision response in males only (nmIN-IN < nsIN-IN: § p < 0.05), but enhanced hyperalgesia persisted in females (nmIN-IN > nsIN: ** p < 0.001). Data points are individual animals ( n = 9 or 10 per group). Error bars indicate mean ± SD analyzed by two-way ANOVA with sex and group as variables and Bonferroni post hoc comparisons. Groups include the following: ns-IN, nm-IN, nsIN-IN, and nmIN-IN.
    Emg Startle Response System, supplied by San Diego Instruments, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/emg startle response system/product/San Diego Instruments
    Average 90 stars, based on 1 article reviews
    emg startle response system - by Bioz Stars, 2026-06
    90/100 stars
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    Mechanical and thermal hyperalgesia following adult reincision is sex-dependently influenced by minocycline at the time of neonatal incision. A–D , Changes in behavioral thresholds following incision are normalized as percentage change from baseline (adult preincision). Data points are mean ± SEM. n = 8 or 9 animals per group analyzed by two-way repeated-measures ANOVA with Bonferroni post hoc comparisons. Mechanical withdrawal threshold (MWT) in male ( A ) and female ( B ) rats and thermal withdrawal latency (TWL) in male ( C ) and female ( D ) rats are plotted against time points to 21 d after incision. Hyperalgesia is enhanced by prior incision (nsIN-IN vs nsIN: *** p < 0.001; ** p < 0.01; * p < 0.05) in both males and females. A , In male rats, neonatal minocycline treatment significantly attenuated the enhanced mechanical hyperalgesia from 7 to 21 d (nmIN-IN vs nsIN-IN: §§ p < 0.01; § p > 0.05). B , In female rats, mechanical hyperalgesia following reincision was enhanced 7–21 d following incision despite neonatal minocycline (nm-IN vs nmIN-IN: ## p < 0.01; # p < 0.05). Differences in thermal latency in males ( C ) and females ( D ) were less marked but followed the same overall pattern with neonatal minocycline attenuating reincision hyperalgesia in males but not females. E , F , Summary figures of mechanical ( E ) and thermal ( F ) hyperalgesia highlight sex-dependent differences following neonatal incision with minocycline (nmIN-IN). Within the ns-IN and nsIN-IN groups, data did not differ between males and females and are combined to minimize overlap in the figure. The impact of prior neonatal incision is highlighted by the clear separation in both the degree and duration of hyperalgesia (ns-IN vs nsIN-IN). In males, minocycline at the time of neonatal incision prevents adult reincision hyperalgesia (♂ nmIN-IN differs from nsIN-IN), and this group more closely approximates animals with no prior neonatal injury (ns-IN). In females, minocycline at the time of neonatal incision (♀ nmIN-IN) has no effect; enhanced adult reincision hyperalgesia persists, and this group approximates the nsIN-IN group. G , H , Behavioral data are expressed as the hyperalgesic index (area over the curve to 21 d after incision) of mechanical threshold ( G ) or thermal latency ( H ). Reincision hyperalgesia is apparent in males and females (nsIN vs nsIN-IN: *** p < 0.001; ** p < 0.01) and is reduced by neonatal minocycline in males only (nsIN-IN vs nmIN-IN: §§ p < 0.01). In females, enhanced reincision hyperalgesia persists despite minocycline (nmIN vs nmIN-IN: ## p < 0.01). Data points are individual animals ( n = 8 or 9 per group). Error bars indicate mean ± SD analyzed by two-way ANOVA with Bonferroni post hoc comparisons. I , Reflex sensitivity 24 h following adult incision quantified as the area under the stimulus (hindpaw mechanical von Frey hair) versus response curve (electromyography recording biceps femoris; EMG area under curve reflex response) demonstrates reincision hyperalgesia in males and females (nsIN-IN>ns-IN: ** p < 0.01). Neonatal minocycline (nmIN-IN) reduced the reincision response in males only (nmIN-IN < nsIN-IN: § p < 0.05), but enhanced hyperalgesia persisted in females (nmIN-IN > nsIN: ** p < 0.001). Data points are individual animals ( n = 9 or 10 per group). Error bars indicate mean ± SD analyzed by two-way ANOVA with sex and group as variables and Bonferroni post hoc comparisons. Groups include the following: ns-IN, nm-IN, nsIN-IN, and nmIN-IN.

    Journal: The Journal of Neuroscience

    Article Title: Priming of Adult Incision Response by Early-Life Injury: Neonatal Microglial Inhibition Has Persistent But Sexually Dimorphic Effects in Adult Rats

    doi: 10.1523/JNEUROSCI.1786-18.2019

    Figure Lengend Snippet: Mechanical and thermal hyperalgesia following adult reincision is sex-dependently influenced by minocycline at the time of neonatal incision. A–D , Changes in behavioral thresholds following incision are normalized as percentage change from baseline (adult preincision). Data points are mean ± SEM. n = 8 or 9 animals per group analyzed by two-way repeated-measures ANOVA with Bonferroni post hoc comparisons. Mechanical withdrawal threshold (MWT) in male ( A ) and female ( B ) rats and thermal withdrawal latency (TWL) in male ( C ) and female ( D ) rats are plotted against time points to 21 d after incision. Hyperalgesia is enhanced by prior incision (nsIN-IN vs nsIN: *** p < 0.001; ** p < 0.01; * p < 0.05) in both males and females. A , In male rats, neonatal minocycline treatment significantly attenuated the enhanced mechanical hyperalgesia from 7 to 21 d (nmIN-IN vs nsIN-IN: §§ p < 0.01; § p > 0.05). B , In female rats, mechanical hyperalgesia following reincision was enhanced 7–21 d following incision despite neonatal minocycline (nm-IN vs nmIN-IN: ## p < 0.01; # p < 0.05). Differences in thermal latency in males ( C ) and females ( D ) were less marked but followed the same overall pattern with neonatal minocycline attenuating reincision hyperalgesia in males but not females. E , F , Summary figures of mechanical ( E ) and thermal ( F ) hyperalgesia highlight sex-dependent differences following neonatal incision with minocycline (nmIN-IN). Within the ns-IN and nsIN-IN groups, data did not differ between males and females and are combined to minimize overlap in the figure. The impact of prior neonatal incision is highlighted by the clear separation in both the degree and duration of hyperalgesia (ns-IN vs nsIN-IN). In males, minocycline at the time of neonatal incision prevents adult reincision hyperalgesia (♂ nmIN-IN differs from nsIN-IN), and this group more closely approximates animals with no prior neonatal injury (ns-IN). In females, minocycline at the time of neonatal incision (♀ nmIN-IN) has no effect; enhanced adult reincision hyperalgesia persists, and this group approximates the nsIN-IN group. G , H , Behavioral data are expressed as the hyperalgesic index (area over the curve to 21 d after incision) of mechanical threshold ( G ) or thermal latency ( H ). Reincision hyperalgesia is apparent in males and females (nsIN vs nsIN-IN: *** p < 0.001; ** p < 0.01) and is reduced by neonatal minocycline in males only (nsIN-IN vs nmIN-IN: §§ p < 0.01). In females, enhanced reincision hyperalgesia persists despite minocycline (nmIN vs nmIN-IN: ## p < 0.01). Data points are individual animals ( n = 8 or 9 per group). Error bars indicate mean ± SD analyzed by two-way ANOVA with Bonferroni post hoc comparisons. I , Reflex sensitivity 24 h following adult incision quantified as the area under the stimulus (hindpaw mechanical von Frey hair) versus response curve (electromyography recording biceps femoris; EMG area under curve reflex response) demonstrates reincision hyperalgesia in males and females (nsIN-IN>ns-IN: ** p < 0.01). Neonatal minocycline (nmIN-IN) reduced the reincision response in males only (nmIN-IN < nsIN-IN: § p < 0.05), but enhanced hyperalgesia persisted in females (nmIN-IN > nsIN: ** p < 0.001). Data points are individual animals ( n = 9 or 10 per group). Error bars indicate mean ± SD analyzed by two-way ANOVA with sex and group as variables and Bonferroni post hoc comparisons. Groups include the following: ns-IN, nm-IN, nsIN-IN, and nmIN-IN.

    Article Snippet: The left hindpaw was secured with an adhesive pad on a fixed platform and a bipolar EMG electrode comprising a stainless-steel 30 gauge needle with a central copper wire core was placed through a small skin incision into the biceps femoris muscle. von Frey hairs were applied to the plantar surface of the hindpaw for 1 s, and the EMG response to the mechanical stimulus was processed (Neurolog, Digitimer) and recorded in 12 s epochs (PowerLab 4S, AD Instruments, RRID: SCR_001620 ).

    Techniques:

    Acute neonatal effects of incision and/or minocycline. A , B , Mechanical withdrawal threshold (MWT) is reduced 4 h following neonatal saline and incision (nsIN) in male ( A ) and female ( B ) rat pups compared with nonincised saline (ns) and minocycline (nm) controls. Minocycline at the time of neonatal incision (nmIN) has no effect. Data are mean ± SEM ( n = 6 ns animals, n = 10 all other groups). ns vs nsIN: * p < 0.05; ns vs nmIN: ## p < 0.01; # p < 0.05; two-way repeated-measures ANOVA with Bonferroni post hoc comparisons. C , Twenty-four hours following P3 interventions, reflex sensitivity was quantified as the area under the curve of the stimulus (von Frey hair to hindpaw) versus biceps femoris EMG response. Data points represent individual animals ( n = 7–9 per group). Error bars indicate mean ± SD. Male nmIN > ns, p = 0.043; nmIN> nm, p = 0.035; female nsIN > ns, p = 0.007; nmIN> ns, p = 0.008; two-way ANOVA with Bonferroni post hoc comparisons. D , Representative low- and high-power images of the dorsal horn of male and female rats 3 d following incision with perioperative saline (nsIN) or minocycline (nmIN). Scale bar, 210 μm. E , Iba1-positive cells within a fixed ROI in the medial superficial dorsal horn were significantly increased following incision in males (ns vs nsIN, p = 0.007), and females given saline (ns vs nsIN, p = 0.011) or minocycline (ns vs nmIN, p = 0.005). Data points represent average of at least 6 spinal L4/5 sections for each individual animal ( n = 4 ns or nm; n = 10 nsIN or nmIN). F , FJ-C-positive cell counts in the ipsilateral (left) lumbar cord (L4,5 segments) were increased following incision in males (ns vs nsIN, p = 0.008; ns vs nmIN, p = 0.002; nm vs nmIN, p = 0.024) and females (nm vs nsIN, p = 0.019). Data points represent sum of FJ-C-positive counts from 6 L4/5 spinal cord sections per animal ( n = 8 animals per group). E , F , Error bars indicate SD. * p < 0.05, two-way ANOVA with Bonferroni post hoc comparisons. Groups are as follows ns, nm, nsIN, and nmIN.

    Journal: The Journal of Neuroscience

    Article Title: Priming of Adult Incision Response by Early-Life Injury: Neonatal Microglial Inhibition Has Persistent But Sexually Dimorphic Effects in Adult Rats

    doi: 10.1523/JNEUROSCI.1786-18.2019

    Figure Lengend Snippet: Acute neonatal effects of incision and/or minocycline. A , B , Mechanical withdrawal threshold (MWT) is reduced 4 h following neonatal saline and incision (nsIN) in male ( A ) and female ( B ) rat pups compared with nonincised saline (ns) and minocycline (nm) controls. Minocycline at the time of neonatal incision (nmIN) has no effect. Data are mean ± SEM ( n = 6 ns animals, n = 10 all other groups). ns vs nsIN: * p < 0.05; ns vs nmIN: ## p < 0.01; # p < 0.05; two-way repeated-measures ANOVA with Bonferroni post hoc comparisons. C , Twenty-four hours following P3 interventions, reflex sensitivity was quantified as the area under the curve of the stimulus (von Frey hair to hindpaw) versus biceps femoris EMG response. Data points represent individual animals ( n = 7–9 per group). Error bars indicate mean ± SD. Male nmIN > ns, p = 0.043; nmIN> nm, p = 0.035; female nsIN > ns, p = 0.007; nmIN> ns, p = 0.008; two-way ANOVA with Bonferroni post hoc comparisons. D , Representative low- and high-power images of the dorsal horn of male and female rats 3 d following incision with perioperative saline (nsIN) or minocycline (nmIN). Scale bar, 210 μm. E , Iba1-positive cells within a fixed ROI in the medial superficial dorsal horn were significantly increased following incision in males (ns vs nsIN, p = 0.007), and females given saline (ns vs nsIN, p = 0.011) or minocycline (ns vs nmIN, p = 0.005). Data points represent average of at least 6 spinal L4/5 sections for each individual animal ( n = 4 ns or nm; n = 10 nsIN or nmIN). F , FJ-C-positive cell counts in the ipsilateral (left) lumbar cord (L4,5 segments) were increased following incision in males (ns vs nsIN, p = 0.008; ns vs nmIN, p = 0.002; nm vs nmIN, p = 0.024) and females (nm vs nsIN, p = 0.019). Data points represent sum of FJ-C-positive counts from 6 L4/5 spinal cord sections per animal ( n = 8 animals per group). E , F , Error bars indicate SD. * p < 0.05, two-way ANOVA with Bonferroni post hoc comparisons. Groups are as follows ns, nm, nsIN, and nmIN.

    Article Snippet: The left hindpaw was secured with an adhesive pad on a fixed platform and a bipolar EMG electrode comprising a stainless-steel 30 gauge needle with a central copper wire core was placed through a small skin incision into the biceps femoris muscle. von Frey hairs were applied to the plantar surface of the hindpaw for 1 s, and the EMG response to the mechanical stimulus was processed (Neurolog, Digitimer) and recorded in 12 s epochs (PowerLab 4S, AD Instruments, RRID: SCR_001620 ).

    Techniques: Saline